JP6484353B2 - Wearable device - Google Patents

Description

  This application claims priority to Chinese Patent Application No. 201510412712.9 entitled “Wearable Device” filed with the Chinese Patent Office on July 14, 2015 and incorporated herein by reference in its entirety.

  The present invention relates to the field of electronics, and more particularly to wearable devices.

  With the development of electronic technology, people's daily lives and jobs are increasingly dependent on portable mobile devices such as mobile phones, tablet computers, digital cameras, and mobile power packs. The power cable and data cable of such a portable mobile device uses the USB cable shown in FIG. Thus, people usually carry USB cables when necessary. However, the portability of the USB cable shown in FIG. 1 is relatively poor. In addition, since such conventional USB cables have different lengths and thicknesses, it is difficult to bundle them together and take much time to move people. Currently, wearable devices are widespread and easy to carry, but such features cannot provide convenience to other devices.

  Embodiments of the present invention provide a wearable device that performs a USB cable function while functioning as a wearable device.

According to a first aspect, there is provided a wearable device including a device carrier, a device core unit, a first USB interface, a second USB interface, and a signal routing unit.
The device carrier is configured to carry the device core unit, the first USB interface, the second USB interface, and the wearable device signal routing unit so that the device is wearable;
The device core unit is configured to perform a core function of the wearable device;
The first USB interface and the second USB interface are configured to connect to an external device;
The signal path selection unit is configured to control a signal path between the first USB interface and the device core unit or a signal path between the first USB interface and the second USB interface to be connected. ing.

In connection with the first aspect, in a first possible implementation, the device core unit is further configured to output a gating control signal to the signal routing unit;
The signal path selection unit is connected according to the gating control signal output by the device core unit, the signal path between the first USB interface and the device core unit, or the first USB interface and the Specially configured to control the signal path to and from the second USB interface.

  In connection with the first aspect, in a second possible implementation, the signal routing unit is connected when the device core unit is not separated from the device carrier, the first USB interface and the device core Control the signal path between the first USB interface and the second USB interface connected when the device core unit is separated from the device carrier It is especially configured as such.

In connection with the second implementation of the first aspect, in a third possible implementation, the device core unit sends an in-position indication signal to the signal when the device core unit is not separated from the device carrier. Further configured to output to the routing unit;
The signal path selection unit controls the signal path between the first USB interface and the device core unit connected when the in-position instruction signal is received, and fails to receive the in-position instruction signal It is particularly configured to control the signal path between the first USB interface and the second USB interface that are sometimes connected.

  In a fourth implementation relating to a first possible implementation of the first aspect, a first possible implementation of the first aspect, a second possible implementation of the first aspect, or a third possible implementation of the first aspect; The signal path includes at least one of a power signal path and a data signal path.

  The first aspect, the first possible implementation of the first aspect, the second possible implementation of the first aspect, the third possible implementation of the first aspect, or the fourth of the first aspect In connection with a possible implementation, in a fifth possible implementation, the wearable device is specifically a smart band.

  In connection with the fifth possible implementation of the first aspect, in a sixth possible implementation, the device carrier is specifically a wristband, and the first USB interface and the second USB interface are the Disposed separately at the two ends of the wristband.

  First aspect, first possible implementation of the first aspect, second possible implementation of the first aspect, third possible implementation of the first aspect, fourth possibility of the first aspect Related to the fifth possible implementation of the first aspect, or the sixth possible implementation of the first aspect, wherein the first USB interface is specifically: USB A interface.

  First aspect, first possible implementation of the first aspect, second possible implementation of the first aspect, third possible implementation of the first aspect, fourth possibility of the first aspect The second USB interface in an eighth possible implementation related to a fifth implementation, a fifth possible implementation of the first aspect, a sixth possible implementation of the first aspect, or a seventh possible implementation. Specifically, it is a micro USB B interface.

  According to the wearable device provided in the first aspect, when the signal path selection unit controls the signal path between the first USB interface and the second USB interface to be connected, the wearable device includes: USB cable function can be implemented, easy to carry and use.

  The drawings are provided to provide a further understanding of the invention, which forms part of the present application. The drawings, together with embodiments of the invention, are used to illustrate the invention and are not intended to limit the invention.

FIG. 1 is a schematic diagram of a conventional USB cable. FIG. 2 is a schematic diagram of a wearable device according to an embodiment of the present invention. FIG. 3 is a schematic diagram of a wearable device according to the first embodiment of the present invention. FIG. 4 is a schematic diagram of a wearable device according to the second embodiment of the present invention. FIG. 5 is a schematic diagram of a smart band according to an embodiment of the present invention.

  In order to provide an implementation solution for improving the portability of USB cables, embodiments of the present invention provide a wearable device. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings of the present specification. It should be understood that the preferred embodiments have been set forth merely to illustrate and illustrate the invention and do not limit the invention. Furthermore, the embodiments of the present specification and the features of the embodiments can be combined with each other in a consistent manner.

  Embodiments of the present invention provide a wearable device. As shown in FIG. 2, the wearable device may include a device carrier 100, a device core unit 101, a first USB interface 102, a second USB interface 103, and a signal routing unit 104.

  The device carrier 100 is configured to carry the device core unit 101, the first USB interface 102, the second USB interface 103, and the signal routing unit 104 of the wearable device so that the device is wearable.

  The device core unit 101 is configured to perform the core function of the wearable device.

  The first USB interface 102 and the second USB interface 103 are configured to connect to an external device.

  The signal path selection unit 104 is configured to control a signal path between the first USB interface 102 and the device core unit 101 or a signal path between the first USB interface 102 and the second USB interface 103 to be connected. ing.

  That is, the signal path selection unit 104 controls the signal path between the connected first USB interface 102 and the device core unit 101, or the signal between the connected first USB interface 102 and the second USB interface 103. Control the route.

The wearable device provided in this embodiment of the invention may be a wearable device of any shape such as a smart band or a smart collar. This is not particularly limited in the present invention.

  The device carrier 100 in the wearable device carries other parts included in the wearable device so that the device is wearable. For example, in the case of a smart band, the device carrier 100 is a wristband.

The device core unit 101 in the wearable device may perform core functions. For example, in the case of a smart band for exercise, the device core unit 101 can perform functions such as step counting and heart rate measurement.

  In this embodiment of the invention, the first USB interface 102 in the wearable device is specifically configured to connect to an external device such as a main communication device or power device, eg, a computer or a charger. Accordingly, the first USB interface 102 may be a USB A interface, specifically, a USB A interface male connector.

  In this embodiment of the invention, the second USB interface 103 in the wearable device is specifically configured to connect to an external device such as a portable mobile device, eg, a mobile phone, tablet computer, or digital camera. Yes. Therefore, the second USB interface 103 may be a micro USB B interface, specifically, a male connector of the micro USB B interface. Of course, the second USB interface 103 may be another portable mobile device interface such as a USB type C interface. This is not limited in the present invention.

  Obviously, when the signal path between the first USB interface 102 and the device core unit 101 is connected, the first USB interface 102 is a charging interface or a communication interface of the wearable device. When the signal path between the first USB interface 102 and the second USB interface 103 is connected, the signal between the external device connected to the first USB interface 102 and the external device connected to the second USB interface 103 The route is connected and the charging requirement or communication requirement of the external device connected to the second USB interface 103 is satisfied. That is, in this case, the wearable device can be used as a power cable or a data cable of another device, thereby achieving a USB cable function.

  In a specific embodiment of the present invention, the device core unit 101 outputs a gating control signal to the signal path selection unit 104. The gating control signal is used to instruct the signal path selection unit 104 to select a signal path to be connected.

  Specifically, the signal path selection unit 104 is connected in accordance with a gating control signal output from the device core unit 101, and is connected to the signal path between the first USB interface 102 and the device core unit 101, or the first USB interface. The signal path between 102 and the second USB interface 103 can be controlled.

  In actual implementation, the device core unit 101 may output a gating control signal when triggered by a button, mechanical switch, system software, or the like.

  In another specific embodiment of the present invention, if the device core unit 101 can be separated from the device carrier 100 in the wearable device, the signal routing unit 104 is in-position with the device core unit 101. Depending on whether or not the device core unit 101 is separated from the device carrier 100, the signal path to be connected may be determined.

  Preferably, in order to satisfy the charging requirement or communication requirement of the wearable device, the connection priority of the signal path between the first USB interface 102 and the device core unit 101 is between the first USB interface 102 and the second USB interface 103. Higher than the connection priority of the signal path.

  That is, specifically, the signal path selection unit 104 is connected to the first USB interface 102 to be connected when the device core unit 101 is in position, that is, when the device core unit 101 is not separated from the device carrier 100. When the signal path to the device core unit 101 is controlled and the device core unit 101 is not in position, that is, when the device core unit 101 is separated from the device carrier 100, the first USB interface 102 and the second USB interface 102 to be connected 2 is configured to control a signal path to and from the USB interface 103.

  In an actual implementation, the signal routing unit 104 can use multiple methods to determine whether the device core unit 101 is in position. For example, the device core unit 101 may output an in-position instruction signal to the signal path selection unit 104 when in the in-position. When receiving the in-position instruction signal, the signal path selection unit 104 determines that the device core unit 101 is in position and controls the signal path between the first USB interface 102 and the device core unit 101 to be connected. If the in-position instruction signal is not received, the signal path selection unit 104 determines that the device core unit 101 is not in position, and a signal between the first USB interface 102 and the second USB interface 103 to be connected. Control the route.

  The signal paths are both USB signal paths and may include at least one of a power signal path or a data signal path. That is, the signal path can include only the power signal path, in which case the wearable device provided in this embodiment of the present invention may implement the USB power cable function. Alternatively, the signal path may include only the data signal path, in which case the wearable device provided in this embodiment of the invention may perform the USB data cable function. Alternatively, the signal path may include both a power signal path and a signal path, in which case the wearable device provided in this embodiment of the invention has both a USB power cable function and a USB data cable function. Can be implemented.

  Hereinafter, a mounting circuit of a wearable device provided in an embodiment of the present invention will be described using a specific embodiment with reference to the accompanying drawings.

[Example 1]
FIG. 3 shows a specific mounting circuit of the wearable device provided in the first embodiment of the present invention. In the wearable device, the device core unit 101 may be separated from the device carrier 100. The SEL pin of the device core unit 101 outputs a low level signal when the device core unit 101 is in position, and the SEL pin is at a high level when the device core unit 101 is not in position. Output a signal. That is, the in-position instruction signal is a low level signal.

  The signal path selection unit 104 controls the power signal path or data signal path to be connected according to the output signal of the SEL pin of the device core unit 101.

  Specifically, the signal path selection unit 104 is mounted using the chip U1 and the chip U2 shown in FIG.

  The chip U1 is a high-speed USB switch, and when the output signal of the SEL pin of the device core unit 101 is a low level signal, a data signal path between the connected first USB interface 102 and the device core unit 101 is shown. And when the output signal of the SEL pin of the device core unit 101 is a high level signal, the data signal path between the first USB interface 102 and the second USB interface 103 is controlled.

  The chip U2 is a single-pole double-throw switch that minimizes the path internal resistance. When the output signal of the SEL pin of the device core unit 101 is a low level signal, the first USB interface 102 and the device core unit to be connected The signal between the first USB interface 102 and the second USB interface 103 to be connected when the output signal of the SEL pin of the device core unit 101 is a high level signal. It is configured to control the route.

[Example 2]
FIG. 4 shows a specific mounting circuit of components in the wearable device provided in the second embodiment of the present invention. In the wearable device, the device core unit 101 can be separated from the device carrier 100. The SEL pin of the device core unit 101 outputs a low level signal when the device core unit 101 is in position, and the SEL pin is a high level signal when the device core unit 101 is not in position. Is output. That is, the in-position instruction signal is a low level signal.

  The power signal path between the first USB interface 102 and the device core unit 101 and the power signal path between the first USB interface 102 and the second USB interface 103 are both connected. The signal path selection unit 104 controls whether the data signal path is connected according to the output signal of the SEL pin of the device core unit 101.

  In this case, the signal path selection unit 104 needs to be mounted using only one high-speed USB switch. The control logic is the same as in the previous embodiment, and details are not described here.

  It should be noted that Example 1 and Example 2 are merely two examples, and do not limit the specific implementation circuit of the wearable device provided in the embodiment of the present invention.

  When the wearable device provided in the embodiment of the present invention is specifically a smart band as shown in FIG. 5, in this case, the device carrier 100 is specifically a wristband, The USB signal cable may be hidden in the shape of the FPC (Flexible Printed Circuit) in the wristband, and the first USB interface 102 and the second USB interface 103 are separately provided at two ends of the wristband. Can be arranged.

  Of course, the wearable device provided in the embodiments of the present invention may be another wearable device such as a smart color, but is not shown here.

  From the above, the USB cable function is hidden in the wearable device provided in the embodiment of the present invention, and is easy to carry and use. This can avoid the problems of existing USB cables such as weak portability, space occupancy, and tidying difficulties, and can improve the user experience.

  Although several preferred embodiments of the embodiments of the present invention have been described, those skilled in the art can change and modify these embodiments after learning the basic inventive concept. Accordingly, it is intended that the appended claims cover the preferred embodiments and that all changes and modifications be construed as being included within the scope of the invention.

  Obviously, those skilled in the art can make various modifications and variations to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. The present invention is intended to cover these modifications and variations that fall within the scope of protection defined by the appended claims and their equivalents.

101 device core unit 102 first USB interface 103 second USB interface 104 signal path selection unit

Claims (8)

A wearable device comprising a device carrier, a device core unit, a first USB interface, a second USB interface, and a signal routing unit,
The device carrier, the so device is wearable, the device core unit, said second 1USB interfaces, the first 2USB interface, configured to carry a signal path selection unit及beauty before Symbol wearable device,
The device core unit is configured to perform a core function of the wearable device;
The first USB interface and the second USB interface are configured to connect to an external device;
The signal path selection unit is configured to control a signal path between the first USB interface and the device core unit or a signal path between the first USB interface and the second USB interface to be connected. and,
Specifically, the signal path selection unit controls the signal path between the first USB interface and the device core unit, which is connected when the device core unit is not separated from the device carrier. The device core unit is configured to control the signal path between the first USB interface and the second USB interface, which is connected when the device core unit is separated from the device carrier. Wearable device. The device core unit is further configured to output a gating control signal to the signal routing unit;
The signal path selection unit is connected according to the gating control signal output by the device core unit, or the signal path between the first USB interface and the device core unit, or the first USB interface and the first The wearable device according to claim 1, wherein the wearable device is configured to control the signal path between two USB interfaces. The device core unit is further configured to output an in-position instruction signal to the signal path selection unit when the device core unit is not separated from the device carrier;
Specifically, the signal path selection unit controls the signal path between the first USB interface and the device core unit connected when the in-position instruction signal is received, and the in-position instruction signal The wearable device according to claim 1 , wherein the wearable device is configured to control the signal path between the first USB interface and the second USB interface that are connected when reception of the first USB interface fails. The wearable device according to any one of claims 1 to 3 , wherein the signal path comprises at least one of a power signal path and a data signal path. The wearable device according to any one of claims 1 to 4 , wherein the wearable device is specifically a smart band. Said device carrier is specifically a wristband, the first 1USB interface and the second 2USB interface, according to claim 5, characterized in that it is arranged separately in the two ends of the wristband Wearable devices. The wearable device according to any one of claims 1 to 6 , wherein the first USB interface is specifically a USB A interface. The wearable device according to any one of claims 1 to 7 , wherein the second USB interface is specifically a micro USB B interface.

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